Data carrier apparatus, communication system, and replaceable unit

What is claimed is: 1. A data carrier apparatus capable of communicating with a data carrier driving apparatus, comprising: a reception unit configured to receive, from the data carrier driving apparatus, a pulse signal that alternatingly repeats a first-level period and a second-level period, and in which the first-level period and the second-level period are set based on individual data values; a measurement unit configured to measure respective time widths of the first-level period and the second-level period in the received pulse signal received by the reception unit; and a demodulation unit configured to demodulate data conveyed by the received pulse signal, by determining the data value corresponding to the first-level period based on a measured value of the first-level period output from the measurement unit and a first reference value, and determining the data value corresponding to the second-level period based on a measured value of the second-level period output from the measurement unit and a second reference value. 2. The data carrier apparatus according to claim 1 , further comprising: a first determination unit configured to determine whether or not the measured value of the first-level period is larger than the first reference value; and a second determination unit configured to determine whether or not the measured value of the second-level period is larger than the second reference value, wherein the demodulation unit determines the data value corresponding to the first-level period based on the determination result of the first determination unit and determines the data value corresponding to the second-level period based on the determination result of the second determination unit. 3. The data carrier apparatus according to claim 1 , further comprising: a first determination unit configured to determine whether or not the measured value of the first-level period is larger than the first reference value; and a second determination unit configured to determine whether or not a calculated value obtained through a predetermined calculation using the measured value of the first-level period and the measured value of the second-level period is larger than the second reference value, wherein the demodulation unit determines the data value corresponding to the first-level period based on the determination result of the first determination unit and determines the data value corresponding to the second-level period based on the determination result of the second determination unit. 4. The data carrier apparatus according to claim 3 , wherein the calculated value is a sum, a difference, or a ratio of the measured value of the first-level period and the measured value of the second-level period. 5. The data carrier apparatus according to claim 1 , further comprising a setting unit configured to set the first reference value and the second reference value based on a setting pulse signal for setting the first reference value and the second reference value, which is transmitted from the data carrier driving apparatus and received by the reception unit while the data carrier driving apparatus is not transmitting data. 6. The data carrier apparatus according to claim 5 , wherein the setting pulse signal is a pulse signal in which the first-level period is set to an intermediate value between a first setting value and a second setting value for the first-level period, which are associated with respective different bit values, and the second-level period is set to an intermediate value between a third setting value and a fourth setting value for the second-level period, which are associated with respective different bit values. 7. The data carrier apparatus according to claim 6 , wherein the setting unit sets the measured value of the first-level period and the measured value of the second-level period, which are measured by the measurement unit for the setting pulse signal, as the first reference value and the second reference value, respectively. 8. The data carrier apparatus according to claim 5 , wherein a pulse signal conveying data is a pulse signal in which the first-level period is set to a first setting value or a second setting value, which are associated with respective different bit values, and the second-level period is set to a third setting value or a fourth setting value, which are associated with respective different bit values, the setting pulse signal is a pulse signal in which the first-level period is set to the first setting value and the second-level period is set to the third setting value, and the setting unit sets the first reference value and the second reference value through a predetermined calculation based on the measured value of the first-level period and the measured value of the second-level period, which are measured by the measurement unit for the setting pulse signal. 9. The data carrier apparatus according to claim 5 , wherein the setting unit corrects the first reference value and the second reference value set previously, based on the setting pulse signal for setting the first reference value and the second reference value. 10. The data carrier apparatus according to claim 1 , wherein the data carrier apparatus is connected to the data carrier driving apparatus by two communication lines, and receives the pulse signal from the data carrier driving apparatus based on a potential difference provided by the data carrier driving apparatus between the two communication lines. 11. A data carrier apparatus capable of communicating with a data carrier driving apparatus, comprising: a reception unit configured to receive, from the data carrier driving apparatus, a pulse signal that alternatingly repeats a first-level period and a second-level period, and in which the first-level period and a cycle of a pulse consisting of the first-level period and the second-level period are set based on individual data values; a measurement unit configured to measure a time width of the first-level period and the cycle of the pulse including the first-level period in the received pulse signal received by the reception unit; and a demodulation unit configured to demodulate data conveyed by the received pulse signal, by determining the data value corresponding to the first-level period based on a measured value of the first-level period output from the measurement unit and a first reference value, and determining the data value corresponding to the cycle based on a measured value of the cycle output from the measurement unit and a second reference value. 12. The data carrier apparatus according to claim 11 , further comprising: a first determination unit configured to determine whether or not the measured value of the first-level period is larger than the first reference value; and a second determination unit configured to determine whether or not the measured value of the cycle is larger than the second reference value, wherein the demodulation unit determines the data value corresponding to the first-level period based on the determination result of the first determination unit and determines the data value corresponding to the cycle based on the determination result of the second determination unit. 13. The data carrier apparatus according to claim 11 , further comprising: a first determination unit configured to determine whether or not the measured value of the first-level period is larger than the first reference value; and a second determination unit configured to determine whether or not a calculated value obtained through a predetermined calculation using the measured value of the first-level period an